Flexible arc extinguishing device for a single-phase ground fault in a distribution network

被引：0

作者：

Yun, Baoji ^{[1
,2
]}

Ma, Kexiang ^{[1
]}

Si, Weibin ^{[3
]}

Song, Guobing ^{[4
]}

Lei, Zhirong ^{[2
]}

Dang, Changfu ^{[2
]}

Zeng, Xiangjun ^{[5
]}

机构：

[1] Xi'an University of Science and Technology, Xi'an,710054, China

[2] Xi'an Xirui Control Technology Co., Ltd., Xi'an,710077, China

[3] Ankang Power Supply Company, State Grid Shaanxi Electric Power Company, Ankang,725000, China

[4] Xi'an Jiaotong University, Xi'an,710054, China

[5] Hunan Province Key Laboratory of Smart Grids Operation and Control (Changsha University of Science and Technology), Changsha,410004, China

来源：

Dianli Xitong Baohu yu Kongzhi/Power System Protection and Control | 2021年 / 49卷 / 19期

关键词：

YUN Baoji1; 2; MA Kexiang1; SI Weibin3; SONG Guobing4; LEI Zhirong2; DANG Changfu2; ZENG Xiangjun5 (1. Xi'an University of Science and Technology; Xi'an; 710054; China; 2. Xi'an Xirui Control Technology Co; Ltd; 710077; 3. Ankang Power Supply Company; State Grid Shaanxi Electric Power Company; Ankang; 725000; 4. Xi'an Jiaotong University; 5. Hunan Province Key Laboratory of Smart Grids Operation and Control (Changsha University of Science and Technology); Changsha; 410004; China) Abstract: The existing flexible arc extinguishing method uses only an active inverter to control the fault point voltage to zero. The arc extinguishing power supply has a capacity of up to 50 kVA and takes up a relatively large volume. To improve this; a flexible arc extinguishing method combining power source conversion and an active inverter is proposed. When a single-phase ground fault occurs; the neutral point voltage is clamped to be close to the power supply voltage of the fault phase through power source conversion; and the amplitude and phase of the deviation voltage are accurately compensated by the active inverter; so that the voltage at the fault point is much smaller than the arc extinguishing voltage. Based on a simulation of the traditional arc suppression coil using Matlab/Simulink; the operating characteristics of the flexible arc suppression method with only power source conversion; power source conversion combined with active inverters under various working conditions are simulated. The effectiveness of the method is verified by the 10 kV true distribution network test field. The results show that the flexible arc extinguishing device can effectively reduce the voltage at the fault point; realize rapid arc extinguishing; and greatly reduce the capacity of the active inverter. This work is supported by the Key Industry Innovation (Mass) Project of Shaanxi Province (No. 2019ZDLGY18-07). Key words: single-phase ground fault; power source conversion; active inverter; flexible arc extinguishing; fault point voltage;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

引用

页码：124 / 134

共 50 条

[31] Single-phase Ground Fault Line Selection for Distribution Network Based on Frequency Domain Parameter Identification Method
Cheng, Siwen
Fu, Zhouxing
2019 3RD INTERNATIONAL WORKSHOP ON RENEWABLE ENERGY AND DEVELOPMENT (IWRED 2019), 2019, 267
[32] Fault phase fast detection of the single-phase-to-ground fault in a power distribution network
Ye Y.
Cai X.
Xie M.
Xu B.
Wei L.
1600, Power System Protection and Control Press (49): : 96 - 103
[33] Overvoltage Monitoring for Single-Phase Arc-To-Ground Failures in Distribution Cable Networks
V. E. Kachesov
V. N. Larionov
A. G. Ovsyannikova
Power Technology and Engineering, 2002, 36 (4) : 207 - 213
[34] Study on fault location of single-phase-to-ground for distribution network
Zhang, Li
Yang, Xiuyuan
Ren, Junling
ADVANCES IN POWER AND ELECTRICAL ENGINEERING, PTS 1 AND 2, 2013, 614-615 : 1101 - 1106
[35] Novel method of fault line selection by transient component for single-phase to ground fault in distribution networks
College of Information and Control Engineering, China University of Petroleum, Dongying 257061, China
Zhongguo Shiyou Daxue Xuebao (Ziran Kexue Ban), 2006, 3 (135-139+143):
[36] A practical identification for single-phase ground fault of microgrid
Lu, Jian
Mu, Long-Hua
Dianli Xitong Baohu yu Kongzhi/Power System Protection and Control, 2012, 40 (11): : 11 - 15
[37] New flexible control system of full compensation single-phase ground fault fundamental current
Liu B.
Ma H.
Shen P.
Chen B.
Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering, 2016, 36 (09): : 2322 - 2330
[38] Fault section location method for single-phase grounding fault in distribution network based on ESMD
Yin Z.
Sun G.
Ding J.
Lü F.
Yuan H.
Wei Z.
Dianli Zidonghua Shebei/Electric Power Automation Equipment, 2019, 39 (06): : 173 - 178and191
[39] A fault location method for a single-phase fault for a distribution network with DGs based on model recognition
Xu S.
Ouyang J.
Chen Y.
Chen J.
Wang J.
Xiong X.
Dianli Xitong Baohu yu Kongzhi/Power System Protection and Control, 2024, 52 (05): : 51 - 60
[40] Deep Belief Network Based Faulty Feeder Detection of Single-Phase Ground Fault
Wei, Hongbo
Wei, Hua
Lyu, Zhongliang
Bai, Xiaoqing
Tian, Junyang
IEEE ACCESS, 2021, 9 : 158961 - 158971

← 1 2 3 4 5 →